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Literature DB >> 11463295

Bioconversion of the anthracycline analogue desacetyladriamycin by recombinant DoxA, a P450-monooxygenase from Streptomyces sp. strain C5.

R J Walczak¹, J V Hines, W R Strohl, N D Priestley.

Abstract

[reaction: see text] A recombinant P450-monooxygenase, DoxA, obtained from Streptomyces sp. strain C5, the producer of the anticancer compound daunorubicin, was expressed in S. lividans TK24 and therein used to catalyze the conversion of the anthracycline analogue desacetyladriamycin into the new anthracycline, 10-hydroxydesacetyladriamycin. This work establishes a new function for DoxA and demonstrates the use of a recombinant enzyme to prepare a new anthracycline analogue.

Entities: Chemical Species

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Year: 2001 PMID： 11463295 DOI： 10.1021/ol015998x

Source DB: PubMed Journal: Org Lett ISSN： 1523-7052 Impact factor: 6.005

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Cited

5 in total

Review 1. Cytochromes P450 for natural product biosynthesis in Streptomyces: sequence, structure, and function.

Authors: Jeffrey D Rudolf; Chin-Yuan Chang; Ming Ma; Ben Shen
Journal: Nat Prod Rep Date: 2017-08-30 Impact factor: 13.423

2. Biocatalytic conversion of avermectin to 4"-oxo-avermectin: heterologous expression of the ema1 cytochrome P450 monooxygenase.

Authors: István Molnár; D Steven Hill; Ross Zirkle; Philip E Hammer; Frank Gross; Thomas G Buckel; Volker Jungmann; Johannes Paul Pachlatko; James M Ligon
Journal: Appl Environ Microbiol Date: 2005-11 Impact factor: 4.792

Bioconversion of the anthracycline analogue desacetyladriamycin by recombinant DoxA, a P450-monooxygenase from Streptomyces sp. strain C5.

Review 1. Cytochromes P450 for natural product biosynthesis in Streptomyces: sequence, structure, and function.

2. Biocatalytic conversion of avermectin to 4"-oxo-avermectin: heterologous expression of the ema1 cytochrome P450 monooxygenase.

3. Pathway Engineering of Anthracyclines: Blazing Trails in Natural Product Glycodiversification.

4. Characterization of CalE10, the N-oxidase involved in calicheamicin hydroxyaminosugar formation.

Review 5. Biosynthesis of aromatic polyketides in microorganisms using type II polyketide synthases.